CN110136823B - Apparatus for wireless intelligent diagnosis of diabetic nephropathy and computer-readable storage medium - Google Patents

Abstract

The invention discloses a device for carrying out wireless intelligent diagnosis on diabetic nephropathy, which comprises: means for collecting, by a wireless terminal, diabetic nephropathy-related parameters of a patient; means for receiving, by a wireless terminal, a first system message sent by a first diabetic nephropathy data receiving apparatus, and receiving a second system message sent by a second diabetic nephropathy data receiving apparatus; means for determining, by the wireless terminal, whether a lowest received power threshold is included in the first system message and the second system message; means for receiving, by a wireless terminal, a first reference signal transmitted by a first diabetic nephropathy data receiving apparatus, and receiving a second reference signal transmitted by a second diabetic nephropathy data receiving apparatus; means for obtaining, by a wireless terminal, a first reference signal received power value based on a first reference signal; means for obtaining, by the wireless terminal, a second reference signal received power value based on the second reference signal.

Description

Apparatus for wireless intelligent diagnosis of diabetic nephropathy and computer-readable storage medium

Technical Field

The present invention relates to the field of intelligent medical technology, and more particularly, to an apparatus and a computer-readable storage medium for wireless intelligent diagnosis of diabetic nephropathy.

Background

Diabetic nephropathy is one of the most important complications for diabetic patients. The incidence of diseases in China is also on the rise, and the disease is the second cause of end-stage nephropathy at present, and is only second to various glomerulonephritis. Due to the existence of complex metabolic disorder, the treatment of the kidney disease is more troublesome once the kidney disease reaches the terminal stage than the treatment of other kidney diseases, so the timely prevention and treatment of the kidney disease is significant for delaying the diabetic nephropathy.

The prior art CN106354715B discloses a medical vocabulary processing method and device. The method comprises the following steps: clustering operation is carried out on the medical vocabularies to be processed according to the text similarity among the medical vocabularies in the medical vocabularies to be processed, and a plurality of medical vocabulary clusters are generated; combining every two medical vocabularies in each medical vocabulary cluster to form candidate word pairs; calculating the similarity between the medical vocabularies in each candidate word pair and judging the relationship between the medical vocabularies in the candidate word pairs according to the similarity to obtain a plurality of relationship word pairs; and constructing a relation structure among all medical vocabularies based on the transfer relation among the relation word pairs.

In the prior art, CN105726568B is a method for constructing a diabetic nephropathy animal model, influences of environmental pollution on disease occurrence are simulated, a diabetic nephropathy model inducer is cadmium chloride, the cadmium chloride is mainly administered through intraperitoneal injection, and combined with high-sugar and high-fat feeding for 8 weeks, detection results of physiological and biochemical indexes show that the cadmium chloride can cause blood sugar rise and NAG content increase, and pathological examination meets pathological changes of diabetic nephropathy.

The prior art CN107091927B discloses a kit for early diagnosis of diabetic nephropathy, which comprises a urine microalbumin test strip, a haptoglobin test strip and a creatinine test strip. The kit can realize the simultaneous detection of three indexes of microalbumin, haptoglobin and creatinine by one sample, and can improve the detection rate of early diabetic nephropathy to more than 95%.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

It is an object of the present invention to provide an apparatus and a computer-readable storage medium for wireless intelligent diagnosis of diabetic nephropathy, which overcome the disadvantages of the prior art.

In order to achieve the above object, the present invention provides an apparatus for wireless intelligent diagnosis of diabetic nephropathy, comprising:

means for collecting, by a wireless terminal, diabetic nephropathy-related parameters of a patient;

means for receiving, by a wireless terminal, a first system message sent by a first diabetic nephropathy data receiving apparatus, and receiving a second system message sent by a second diabetic nephropathy data receiving apparatus;

means for determining, by the wireless terminal, whether a lowest received power threshold is included in the first system message and the second system message;

means for receiving, by a wireless terminal, a first reference signal transmitted by a first diabetic nephropathy data receiving apparatus, and receiving a second reference signal transmitted by a second diabetic nephropathy data receiving apparatus;

means for obtaining, by a wireless terminal, a first reference signal received power value based on a first reference signal;

means for obtaining, by the wireless terminal, a second reference signal received power value based on the second reference signal;

means for preferentially determining, by the wireless terminal, whether the first reference signal received power value is greater than a lowest received power threshold if it is determined that the first system message includes the lowest received power threshold;

means for transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to the first diabetic nephropathy data receiving apparatus if the first reference signal received power value is determined to be greater than the minimum received power threshold;

means for determining, by the wireless terminal, whether the second reference signal received power value is greater than a predefined received power threshold if the first reference signal received power value is determined to be less than the lowest received power threshold; and

means for transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to a second diabetic nephropathy data receiving apparatus if the second reference signal received power value is determined to be greater than the predefined received power threshold.

In a preferred embodiment, the apparatus for wireless intelligent diagnosis of diabetic nephropathy comprises:

means for determining, by the wireless terminal, whether the first reference signal received power value and the second reference signal received power value are greater than a predefined received power threshold if it is determined that the lowest received power threshold is not included in the first system message and the second system message;

means for transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to the first diabetic nephropathy data receiving apparatus if the first reference signal received power value is determined to be greater than the predefined received power threshold; and

means for transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to a second diabetic nephropathy data receiving apparatus if the second reference signal received power value is determined to be greater than the predefined received power threshold.

In a preferred embodiment, the apparatus for wireless intelligent diagnosis of diabetic nephropathy comprises:

means for receiving, by a wireless terminal, a system message broadcast by a first diabetic nephropathy data receiving apparatus or a second diabetic nephropathy data receiving apparatus, wherein the broadcast system message comprises a first numerical tag and a second numerical tag;

means for determining, by the wireless terminal, whether a first numeric tag in the broadcasted system message is the same as a first numeric tag in a system message that has been currently received; and

means for discarding, by the wireless terminal, the received broadcasted system message if a first numerical tag in the broadcasted system message is the same as a first numerical tag in a system message that has been currently received, wherein the first numerical tag is changed when information in the system message changes.

In a preferred embodiment, the apparatus for wireless intelligent diagnosis of diabetic nephropathy comprises:

means for determining, by the wireless terminal, whether a first numeric tag in the broadcasted system message is the same as a first numeric tag in a system message that has been currently received, if the first numeric tag in the broadcasted system message is not the same as the first numeric tag in the system message that has been currently received; and

means for discarding a message of the received broadcasted system message that is associated with the lowest received power threshold if it is determined that the second numeric label in the broadcasted system message is the same as the second numeric label in the system message that has been currently received.

In a preferred embodiment, the apparatus for wireless intelligent diagnosis of diabetic nephropathy comprises: means for updating, by the wireless terminal, a current minimum received power threshold based on a minimum received power threshold in the received broadcasted system message if it is determined that the second value tag in the broadcasted system message is not the same as the second value tag in the system message that has been currently received, wherein the second value tag is changed when the minimum received power threshold in the system message is changed, wherein the first diabetic nephropathy data receiving apparatus or the second diabetic nephropathy data receiving apparatus forwards the received diabetic nephropathy related parameter to the diabetic nephropathy expert diagnostic system for diagnosis by the diabetic nephropathy expert diagnostic system.

The present invention also provides a computer-readable storage medium having stored thereon instructions that, when executed by a processor, enable the processor to:

collecting, by a wireless terminal, diabetic nephropathy-related parameters of a patient;

receiving, by the wireless terminal, a first system message transmitted by a first diabetic nephropathy data receiving apparatus, and receiving a second system message transmitted by a second diabetic nephropathy data receiving apparatus;

determining, by the wireless terminal, whether the first system message and the second system message include a minimum received power threshold;

receiving, by the wireless terminal, a first reference signal transmitted by a first diabetic nephropathy data receiving apparatus, and receiving a second reference signal transmitted by a second diabetic nephropathy data receiving apparatus;

obtaining, by the wireless terminal, a first reference signal received power value based on the first reference signal;

obtaining, by the wireless terminal, a second reference signal received power value based on the second reference signal;

if the first system message is judged to comprise the lowest received power threshold, the wireless terminal preferentially judges whether the first reference signal received power value is larger than the lowest received power threshold;

if the first reference signal receiving power value is judged to be larger than the lowest receiving power threshold, the wireless terminal sends the collected diabetic nephropathy related parameters of the patient to the first diabetic nephropathy data receiving device;

if the first reference signal received power value is judged to be smaller than the lowest received power threshold, the wireless terminal judges whether the second reference signal received power value is larger than a predefined received power threshold or not; and

and if the second reference signal received power value is judged to be larger than the predefined received power threshold, the collected diabetic nephropathy related parameters of the patient are sent to a second diabetic nephropathy data receiving device by the wireless terminal.

In a preferred embodiment, the instructions, when executed by the processor, are capable of causing the processor to:

if the first system message and the second system message do not comprise the lowest received power threshold, the wireless terminal judges whether the first reference signal received power value and the second reference signal received power value are larger than a predefined received power threshold;

if the first reference signal receiving power value is judged to be larger than the predefined receiving power threshold, the collected diabetic nephropathy related parameters of the patient are sent to the first diabetic nephropathy data receiving device by the wireless terminal; and

and if the second reference signal received power value is judged to be larger than the predefined received power threshold, the collected diabetic nephropathy related parameters of the patient are sent to a second diabetic nephropathy data receiving device by the wireless terminal.

In a preferred embodiment, the instructions, when executed by the processor, are capable of causing the processor to:

receiving, by a wireless terminal, a system message broadcasted by a first diabetic nephropathy data receiving apparatus or a second diabetic nephropathy data receiving apparatus, wherein the broadcasted system message includes a first numerical value tag and a second numerical value tag;

judging whether a first numerical value label in the broadcasted system message is the same as a first numerical value label in the currently received system message by the wireless terminal; and

the received broadcasted system message is discarded by the wireless terminal if the first numerical tag in the broadcasted system message is the same as the first numerical tag in the system message that has been currently received, wherein the first numerical tag is changed when information in the system message is changed.

In a preferred embodiment, the instructions, when executed by the processor, are capable of causing the processor to:

if the first numerical label in the broadcasted system message is different from the first numerical label in the system message which is received currently, the wireless terminal judges whether the second numerical label in the broadcasted system message is the same as the second numerical label in the system message which is received currently; and

and if the second numerical label in the broadcasted system message is judged to be the same as the second numerical label in the system message which is received currently, discarding the message related to the lowest received power threshold in the received broadcasted system message.

In a preferred embodiment, the instructions, when executed by the processor, are capable of causing the processor to: and if the second value label in the broadcasted system message is judged to be different from the second value label in the system message which is received currently, updating the current lowest received power threshold by the wireless terminal based on the lowest received power threshold in the received broadcasted system message, and changing the second value label when the lowest received power threshold in the system message is changed, wherein the first diabetic nephropathy data receiving device or the second diabetic nephropathy data receiving device forwards the received diabetic nephropathy related parameters to the diabetic nephropathy expert diagnostic system so as to be diagnosed by the diabetic nephropathy expert diagnostic system.

Compared with the prior art, the invention has the following advantages:

although a series of methods and tools for treating, preventing or diagnosing diabetic nephropathy are proposed in the prior art, the methods in the prior art are basically based on the diagnosis process of the traditional hospital, that is, a doctor first gives a laboratory sheet to a patient, then the patient tests according to the laboratory sheet, then obtains the test result, then the patient gives the laboratory sheet to the doctor, and the doctor judges the state of an illness. This approach actually results in a waste of patient time (since all patients must be queued twice, and visit doctors twice), and at the same time results in a crowded hospital clinic, which does not meet the requirements of intelligent and telemedicine advocated by the state.

The application designs a device for carrying out wireless intelligent diagnosis to diabetic nephropathy, because diabetic nephropathy has more specific and definite judgement standard, so as long as with chemical examination result long-range transmission for the doctor, can directly obtain very accurate diagnosis result, remaining work only need tell the follow-up treatment means of patient can. The work of gathering the chemical examination result can be carried out by nurse's handheld mobile terminal, collects the while and sends, and the patient need not to wait for the chemical examination result, and the doctor need not the repeated same patient that faces many times, has both practiced thrift patient's time, has reduced doctor's working strength again, has improved doctor's operational environment, has alleviated doctor-patient dispute's emergence. The invention makes the wireless terminal communicate with the higher data receiving device with the receiving power threshold setting function and communicate with the simpler data receiving device which can not set the receiving power threshold through designing the steps of judging whether the first system message and the second system message comprise the lowest receiving power threshold by the wireless terminal and correlating the lowest receiving power threshold with the steps. The invention designs the first numerical value label and the second numerical value label and relevant steps thereof, thereby preventing the situation that the mobile terminal immediately reconfigures the system setting as long as receiving a new system configuration message.

Drawings

FIG. 1 is a flow diagram of a method according to an embodiment of the invention.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

FIG. 1 is a flow diagram of a method according to an embodiment of the invention. As shown in the figure, the wireless intelligent diagnosis method for diabetic nephropathy comprises the following steps:

step 101: collecting, by a wireless terminal (e.g., a cell phone, a handheld terminal with wireless communication capability, a low complexity device, a low cost device, etc.), diabetic nephropathy related parameters of a patient;

step 102: receiving, by a wireless terminal, a first system message transmitted by a first diabetic nephropathy data receiving apparatus (e.g., a device similar to a base station, or an apparatus having a function similar to a base station), and receiving a second system message transmitted by a second diabetic nephropathy data receiving apparatus;

step 103: determining, by the wireless terminal, whether the first system message and the second system message include a minimum received power threshold;

step 104: receiving, by the wireless terminal, a first reference signal transmitted by a first diabetic nephropathy data receiving apparatus, and receiving a second reference signal transmitted by a second diabetic nephropathy data receiving apparatus;

step 105: obtaining, by the wireless terminal, a first reference signal received power value based on the first reference signal;

step 106: obtaining, by the wireless terminal, a second reference signal received power value based on the second reference signal;

step 107: if the first system message is judged to comprise the lowest received power threshold, the wireless terminal preferentially judges whether the first reference signal received power value is larger than the lowest received power threshold;

step 108: if the first reference signal receiving power value is judged to be larger than the lowest receiving power threshold, the wireless terminal sends the collected diabetic nephropathy related parameters of the patient to the first diabetic nephropathy data receiving device;

step 109: if the first reference signal received power value is judged to be smaller than the lowest received power threshold, the wireless terminal judges whether the second reference signal received power value is larger than a predefined received power threshold or not; and

step 110: and if the second reference signal received power value is judged to be larger than the predefined received power threshold, the collected diabetic nephropathy related parameters of the patient are sent to a second diabetic nephropathy data receiving device by the wireless terminal.

The invention also provides a device for wirelessly and intelligently diagnosing the diabetic nephropathy, which comprises the following components:

means for collecting, by a wireless terminal, diabetic nephropathy-related parameters of a patient;

means for receiving, by a wireless terminal, a first system message sent by a first diabetic nephropathy data receiving apparatus, and receiving a second system message sent by a second diabetic nephropathy data receiving apparatus;

means for determining, by the wireless terminal, whether a lowest received power threshold is included in the first system message and the second system message;

means for receiving, by a wireless terminal, a first reference signal transmitted by a first diabetic nephropathy data receiving apparatus, and receiving a second reference signal transmitted by a second diabetic nephropathy data receiving apparatus;

means for obtaining, by a wireless terminal, a first reference signal received power value based on a first reference signal;

means for obtaining, by the wireless terminal, a second reference signal received power value based on the second reference signal;

means for preferentially determining, by the wireless terminal, whether the first reference signal received power value is greater than a lowest received power threshold if it is determined that the first system message includes the lowest received power threshold;

means for transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to the first diabetic nephropathy data receiving apparatus if the first reference signal received power value is determined to be greater than the minimum received power threshold;

means for determining, by the wireless terminal, whether the second reference signal received power value is greater than a predefined received power threshold if the first reference signal received power value is determined to be less than the lowest received power threshold; and

means for transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to a second diabetic nephropathy data receiving apparatus if the second reference signal received power value is determined to be greater than the predefined received power threshold.

In a preferred embodiment, the apparatus for wireless intelligent diagnosis of diabetic nephropathy comprises: means for determining, by the wireless terminal, whether the first reference signal received power value and the second reference signal received power value are greater than a predefined received power threshold if it is determined that the lowest received power threshold is not included in the first system message and the second system message; means for transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to the first diabetic nephropathy data receiving apparatus if the first reference signal received power value is determined to be greater than the predefined received power threshold; and means for transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to a second diabetic nephropathy data receiving apparatus if the second reference signal received power value is determined to be greater than the predefined received power threshold.

In a preferred embodiment, the apparatus for wireless intelligent diagnosis of diabetic nephropathy comprises: means for receiving, by a wireless terminal, a system message broadcast by a first diabetic nephropathy data receiving apparatus or a second diabetic nephropathy data receiving apparatus, wherein the broadcast system message comprises a first numerical tag and a second numerical tag; means for determining, by the wireless terminal, whether a first numeric tag in the broadcasted system message is the same as a first numeric tag in a system message that has been currently received; and means for discarding, by the wireless terminal, the received broadcasted system message if the first numerical tag in the broadcasted system message is the same as the first numerical tag in the system message that has been currently received, wherein the first numerical tag is changed when information in the system message changes.

In a preferred embodiment, the apparatus for wireless intelligent diagnosis of diabetic nephropathy comprises: means for determining, by the wireless terminal, whether a first numeric tag in the broadcasted system message is the same as a first numeric tag in a system message that has been currently received, if the first numeric tag in the broadcasted system message is not the same as the first numeric tag in the system message that has been currently received; and means for discarding a message of the received broadcasted system message that is associated with the lowest received power threshold if it is determined that the second numeric label in the broadcasted system message is the same as the second numeric label in the system message that has been currently received.

In a preferred embodiment, the apparatus for wireless intelligent diagnosis of diabetic nephropathy comprises: means for updating, by the wireless terminal, a current minimum received power threshold based on a minimum received power threshold in the received broadcasted system message if it is determined that the second value tag in the broadcasted system message is not the same as the second value tag in the system message that has been currently received, wherein the second value tag is changed when the minimum received power threshold in the system message is changed, wherein the first diabetic nephropathy data receiving apparatus or the second diabetic nephropathy data receiving apparatus forwards the received diabetic nephropathy related parameter to the diabetic nephropathy expert diagnostic system for diagnosis by the diabetic nephropathy expert diagnostic system.

The present invention also provides a computer-readable storage medium having stored thereon instructions that, when executed by a processor, enable the processor to: collecting, by a wireless terminal, diabetic nephropathy-related parameters of a patient; receiving, by the wireless terminal, a first system message transmitted by a first diabetic nephropathy data receiving apparatus, and receiving a second system message transmitted by a second diabetic nephropathy data receiving apparatus; determining, by the wireless terminal, whether the first system message and the second system message include a minimum received power threshold; receiving, by the wireless terminal, a first reference signal transmitted by a first diabetic nephropathy data receiving apparatus, and receiving a second reference signal transmitted by a second diabetic nephropathy data receiving apparatus; obtaining, by the wireless terminal, a first reference signal received power value based on the first reference signal; obtaining, by the wireless terminal, a second reference signal received power value based on the second reference signal; if the first system message is judged to comprise the lowest received power threshold, the wireless terminal preferentially judges whether the first reference signal received power value is larger than the lowest received power threshold; if the first reference signal receiving power value is judged to be larger than the lowest receiving power threshold, the wireless terminal sends the collected diabetic nephropathy related parameters of the patient to the first diabetic nephropathy data receiving device; if the first reference signal received power value is judged to be smaller than the lowest received power threshold, the wireless terminal judges whether the second reference signal received power value is larger than a predefined received power threshold or not; and transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to the second diabetic nephropathy data receiving apparatus if the second reference signal received power value is determined to be greater than the predefined received power threshold.

In a preferred embodiment, the instructions, when executed by the processor, are capable of causing the processor to: if the first system message and the second system message do not comprise the lowest received power threshold, the wireless terminal judges whether the first reference signal received power value and the second reference signal received power value are larger than a predefined received power threshold; if the first reference signal receiving power value is judged to be larger than the predefined receiving power threshold, the collected diabetic nephropathy related parameters of the patient are sent to the first diabetic nephropathy data receiving device by the wireless terminal; and transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to the second diabetic nephropathy data receiving apparatus if the second reference signal received power value is determined to be greater than the predefined received power threshold.

In a preferred embodiment, the instructions, when executed by the processor, are capable of causing the processor to: receiving, by a wireless terminal, a system message broadcasted by a first diabetic nephropathy data receiving apparatus or a second diabetic nephropathy data receiving apparatus, wherein the broadcasted system message includes a first numerical value tag and a second numerical value tag; judging whether a first numerical value label in the broadcasted system message is the same as a first numerical value label in the currently received system message by the wireless terminal; and discarding, by the wireless terminal, the received broadcasted system message if the first numerical tag in the broadcasted system message is the same as the first numerical tag in the system message that has been currently received, wherein the first numerical tag is changed when information in the system message is changed.

In a preferred embodiment, the instructions, when executed by the processor, are capable of causing the processor to: if the first numerical label in the broadcasted system message is different from the first numerical label in the system message which is received currently, the wireless terminal judges whether the second numerical label in the broadcasted system message is the same as the second numerical label in the system message which is received currently; and if the second value label in the broadcasted system message is judged to be the same as the second value label in the system message which is received currently, discarding the message related to the lowest receiving power threshold in the received broadcasted system message.

In a preferred embodiment, the instructions, when executed by the processor, are capable of causing the processor to: and if the second value label in the broadcasted system message is judged to be different from the second value label in the system message which is received currently, updating the current lowest received power threshold by the wireless terminal based on the lowest received power threshold in the received broadcasted system message, and changing the second value label when the lowest received power threshold in the system message is changed, wherein the first diabetic nephropathy data receiving device or the second diabetic nephropathy data receiving device forwards the received diabetic nephropathy related parameters to the diabetic nephropathy expert diagnostic system so as to be diagnosed by the diabetic nephropathy expert diagnostic system.

The parameters related to the diabetic nephropathy refer to parameters necessary for diagnosing the diabetic nephropathy, and include urinary albumin excretion rate (UAE), urea nitrogen, creatinine, nuclide renal dynamic Glomerular Filtration Rate (GFR) and the like.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (2)

1. A device for carrying out wireless intelligent diagnosis on diabetic nephropathy is characterized in that: the device for carrying out wireless intelligent diagnosis on the diabetic nephropathy comprises:

means for collecting, by a wireless terminal, diabetic nephropathy-related parameters of a patient;

means for receiving, by a wireless terminal, a first system message sent by a first diabetic nephropathy data receiving apparatus, and receiving a second system message sent by a second diabetic nephropathy data receiving apparatus;

means for determining, by a wireless terminal, whether a lowest received power threshold is included in the first system message and the second system message;

means for receiving, by a wireless terminal, a first reference signal transmitted by a first diabetic nephropathy data receiving apparatus, and receiving a second reference signal transmitted by a second diabetic nephropathy data receiving apparatus;

means for obtaining, by a wireless terminal, a first reference signal received power value based on the first reference signal;

means for obtaining, by the wireless terminal, a second reference signal received power value based on the second reference signal;

means for preferentially determining, by a wireless terminal, whether the first reference signal received power value is greater than a lowest received power threshold if it is determined that the first system message includes the lowest received power threshold;

means for transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to the first diabetic nephropathy data receiving apparatus if the first reference signal received power value is determined to be greater than the minimum received power threshold;

means for determining, by the wireless terminal, whether the second reference signal received power value is greater than a predefined received power threshold if the first reference signal received power value is determined to be less than the lowest received power threshold, the predefined received power threshold being determined by a core network entity;

means for transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to the second diabetic nephropathy data receiving apparatus if it is determined that the second reference signal received power value is greater than a predefined received power threshold, the apparatus for wirelessly intelligently diagnosing diabetic nephropathy comprising:

means for determining, by a wireless terminal, whether the first reference signal received power value and the second reference signal received power value are greater than a predefined received power threshold if it is determined that neither the first system message nor the second system message includes a lowest received power threshold;

means for transmitting, by a wireless terminal, the collected diabetic nephropathy related parameters of the patient to the first diabetic nephropathy data receiving apparatus if the first reference signal received power value is determined to be greater than a predefined received power threshold;

means for transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to the second diabetic nephropathy data receiving apparatus if it is determined that the second reference signal received power value is greater than a predefined received power threshold, the apparatus for wirelessly intelligently diagnosing diabetic nephropathy comprising:

means for receiving, by a wireless terminal, a system message broadcast by a first diabetic nephropathy data receiving apparatus or a second diabetic nephropathy data receiving apparatus, wherein the broadcast system message comprises a first numerical tag and a second numerical tag;

means for determining, by the wireless terminal, whether a first numeric tag in the broadcasted system message is the same as a first numeric tag in a system message that has been currently received;

means for discarding, by a wireless terminal, a received broadcasted system message if a first numerical tag in the broadcasted system message is the same as a first numerical tag in a system message that has been currently received, wherein the first numerical tag is changed when information in the system message changes, the apparatus for wireless intelligent diagnosis of diabetic nephropathy comprising:

means for determining, by the wireless terminal, whether a first numeric tag in the broadcasted system message is the same as a first numeric tag in a system message that has been currently received, if the first numeric tag in the broadcasted system message is not the same as the first numeric tag in the system message that has been currently received;

means for discarding a message of the received broadcasted system messages that is associated with a lowest received power threshold if it is determined that the second numerical tag of the broadcasted system messages is the same as the second numerical tag of the system messages that have been currently received, the apparatus for wireless intelligent diagnosis of diabetic nephropathy comprising:

means for updating, by the wireless terminal, a current minimum received power threshold based on a minimum received power threshold in the received broadcasted system message if it is determined that a second value tag in the broadcasted system message is not the same as a second value tag in a system message that has been currently received, wherein the second value tag is changed when the minimum received power threshold in the system message is changed, wherein the first diabetic nephropathy data receiving device or the second diabetic nephropathy data receiving device forwards the received diabetic nephropathy related parameters to a diabetic nephropathy expert diagnostic system for diagnosis by the diabetic nephropathy expert diagnostic system, the diabetic nephropathy data receiving device being a device with base station functionality.

2. A computer-readable storage medium having stored thereon instructions that, when executed by a processor, are capable of causing the processor to:

collecting, by a wireless terminal, diabetic nephropathy-related parameters of a patient;

receiving, by the wireless terminal, a first system message transmitted by a first diabetic nephropathy data receiving apparatus, and receiving a second system message transmitted by a second diabetic nephropathy data receiving apparatus; determining, by the wireless terminal, whether the first system message and the second system message include a minimum received power threshold;

receiving, by the wireless terminal, a first reference signal transmitted by a first diabetic nephropathy data receiving apparatus, and receiving a second reference signal transmitted by a second diabetic nephropathy data receiving apparatus; obtaining, by the wireless terminal, a first reference signal received power value based on the first reference signal; obtaining, by the wireless terminal, a second reference signal received power value based on the second reference signal; if the first system message is judged to comprise the lowest received power threshold, the wireless terminal preferentially judges whether the first reference signal received power value is larger than the lowest received power threshold;

if the first reference signal received power value is judged to be larger than the lowest received power threshold, the collected diabetic nephropathy related parameters of the patient are sent to the first diabetic nephropathy data receiving device by the wireless terminal;

if the first reference signal received power value is judged to be smaller than the lowest received power threshold, the wireless terminal judges whether the second reference signal received power value is larger than a predefined received power threshold, and the predefined received power threshold is determined by a core network entity; transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to the second diabetic nephropathy data receiving apparatus if it is determined that the second reference signal received power value is greater than the predefined received power threshold,

determining, by the wireless terminal, whether the first reference signal received power value and the second reference signal received power value are greater than a predefined received power threshold if it is determined that neither the first system message nor the second system message includes a lowest received power threshold;

if the first reference signal received power value is judged to be larger than a predefined received power threshold, the collected diabetic nephropathy related parameters of the patient are sent to the first diabetic nephropathy data receiving device by the wireless terminal;

transmitting, by the wireless terminal, the collected diabetic nephropathy related parameters of the patient to the second diabetic nephropathy data receiving apparatus if it is determined that the second reference signal received power value is greater than the predefined received power threshold,

receiving, by a wireless terminal, a system message broadcasted by a first diabetic nephropathy data receiving apparatus or a second diabetic nephropathy data receiving apparatus, wherein the broadcasted system message comprises a first numerical value tag and a second numerical value tag;

judging whether a first numerical value label in the broadcasted system message is the same as a first numerical value label in the currently received system message by the wireless terminal;

discarding, by the wireless terminal, the received broadcasted system message if a first numerical tag in the broadcasted system message is the same as a first numerical tag in a system message that has been currently received, wherein the first numerical tag is changed when information in the system message is changed,

if the first numerical label in the broadcasted system message is different from the first numerical label in the system message which is received currently, the wireless terminal judges whether the second numerical label in the broadcasted system message is the same as the second numerical label in the system message which is received currently;

if the second value tag in the broadcasted system message is judged to be the same as the second value tag in the system message which is received currently, the message related to the lowest receiving power threshold in the received broadcasted system message is discarded,

if the second value label in the broadcasted system message is judged to be different from the second value label in the system message which is received currently, the wireless terminal updates the current lowest received power threshold based on the lowest received power threshold in the received broadcasted system message, and when the lowest received power threshold in the system message is changed, the second value label is changed, wherein the first diabetic nephropathy data receiving device or the second diabetic nephropathy data receiving device forwards the received diabetic nephropathy related parameters to a diabetic nephropathy expert diagnostic system so as to be diagnosed by the diabetic nephropathy expert diagnostic system, and the diabetic nephropathy data receiving device is a device with a base station function.

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